Cloth measuring and rewinding machine.



' 0. 'A.= HBGKBL, JM. KAGHBL, W; P. GO BSSLING & H. E. PAUK.

I OLOTH MEASURING AND BEWINDING MACHINE.

. 7 APPLICATION FILED DEC. 30, 1909. ,074,621.

Patented 001;. 7,1913.

13 SHEETS-SHEET 1.

o. A. HEOKEIQ, c. M. KAGHBL, W. I. GOESSLING & H. E.- BAUK.

CLOTH MEASURING AND REWINDING MACHINE.

. I APPLICATION FILED DEC. 30, 1909. v 1,074,621, Patented Oct. '2, 1913.

w Maggi;-

0. HBU KEL G. M. KACHEL, W. F. GOESSLING & H. E. PAUK.

CLOTH MEASURING AND HBWINDING MACHINE.

APPLICATION FILED DBO. 30, 1909.

Patented Opt. 7, 1913.

13 SHEETS-SHEET 3.

0. A. 1115mm. 0. m. KAGHEL, -W.'P. eonssmne at H. B. PAUK.

OLOTH MEASURING AND REWINDING MACHINE.

APPLICATION FILED DEC; 30, 1909.

6., A. HECKEL, (3. M. KAGHEL, W. F. GOESSLING 6: H. E. PAUK.

CLOTH MEASUEIEG AND BEWINDING MACHINE.

APPLICATION FILED DEC. 30 1909.

m z. m n t H /v m mm m w J W m m 2. m 7w.

M Mg

v v mm m M m m i fifi 352$ 32mg fifigfi afifiifi 2333mm 5 2 3 E 212:. 2 g 5% :32 a a 225% a 2 E E 2 we a a E E a g a E E g 3% 1 M v J um mm 4 k ww D. x 1 M 0. A. HEGKEL, G. M. KAGHBL, W. P. GOESS'LING 8; H. E. PAUK CLOTH MEASURING AND REWINDING MACHINE. APPLICATION FILED 1120.20, 1909. 1,074,621.

Patented Oct. 7, 1913.

13 SHEETS-SHEET 8.

K um .R K

'0. A. HEGKEL, G. M. KAGHEL, W. P. GOESSLING & H. E. PAUK.

' CLOTH MEASURING AND RBWINDING MACHINE. APPLICATION FILED D30. 30, 1908. 1.074.621. 1 Patented 001:.731913.

1 SHEETS-SHEET 9.

0. A. HBGKBL, c. M. KAoHBL, w. P. GOESSLING & H. E. PA'UK CLOTH MEASURING AND REWINDING MACHINE.

APPLICATION FILiID DEC. 30, 1909.

1 74,621 figs/6' Patented 0015.7, 1913.

13 SHEETS-SHEET 10.

Y Patented Oct. 7, 1513.

' 13 SHBETSSHEET 11.

APPLIQATION rum) D20. 30, 1909.

CLOTH MEASURING AND, BEWINDING MACHINE."

O. A. H EGKBL, (L M. KAGHEL, W- F. GOBSSLING & H. E. PAUK.

HMM u 0. A. HECKEL, G M. RACHEL, W. F. GOESSLING & H E. PA'JK. {TLOTH MEASURING AND HBWINDING MACHINE.

APPLICATION FILED DEC. 30, 1009.

LOWLSZI. Patented Oct. 1 2913. I

13 SHEETS-$321123. 1;.

.-o'.JA.- HB'GKEL, c. M. KAG HE L} w. F. eoassnme & H. E. PAUK'. CLOTH- MEASURING AND REWINDI'N'G' momma APPLICATION FILED 1120.30, 1909.

1 0745 621 Ia/Lenteiil Oct. 7, 1913.

13 SHEETS-SHEEI 13.

r ll 4 UNITED STATES rAtr-EN OFFICE. I

"on on. HEoKEncHAnLEs M; neon-sin, WILLIAM F. GoEssm-ne, AND nnnv 1 4133,.

or sr. LOUIS, raissounr, assrenons TO GLOTHMETER MAN-UEACiiFURING commit? A. CORPORATI OF MISSOURI.

cno'rn MEASURING Ann nnwmniner MAGEffiE 1,074,621, specification of Letters Patent. P a'thf; Application filed December 30,1909. .Serial no. 535, 91. 1 I

To all whomit may concern; 1 a

Be it known that We, OTTO A. HncimL, CHARLES M. KACHEL, WILLIAM F; .Gonss- Line, and HENRY E. PAUK, citizens of the United States, and residents of St. Louis, Missouri, have invented certain new and useful Improvements in Cloth Measuring and Rewinding Machines, of which the following is a. specification.

Our invention relates to improvements in cloth measuring and ice-winding machines, and relates more particularlyto that type of said machines in which the computing drum is actuated by the unwinding of cloth from the-bolt; our present invention. being based uponour certain other inventionfor which application for United States Letters patent is now pending, Serial No. 522,003, filed October 11, 1909, the device of this present application being intended and adapted for use in connection with the device of the said former application.

In the drawings-Fig'ure 1 is a perspec-. tive View of a device embodying our invention. Fig. 2 isa side elevation of-the same. F 3 is an elevation of't'he opposite side of a device embodying our invention. liig. 4

v and complete exhi is afront elevation of the same. Figs. 5, 6 and 7 are views showing the lineal measurement scale (Ifig. G), the price totals, and scale o prices per yard, exhibited through the opening in the front of the computing drum, tl'ieillustration being taken when the drum is at rest and the views in the sequence of their numbers )Eesenting a continuous bit of nuinerals visible from the front of the machine when the machineis so'at rest; the views being taken in the order of their 5 numbers from left to right. Fig. 8 is a detail sectional View taken through the window in the housing of the computing drum, and through the periphery of the computing drum, taken along the line 8-8 of Fig. 4:. Fig. 9 is a-detail sectional view taken through the enlarged portion of the window in the housing of the computing drum. and through the periphery of the computing-drum taken on the line 9 9' of Fig. 4-. Fig. 10 is sin enlarged perspective view of the longitudinal adjusting bar. em-

ployed in the bolt-receptacle Figill is a longitudinal vertical view of' thesanie in section, showing the guide-boards inplace.

.. Fig. 12 is a bottom planview oi -the exterior the right guide-boardfisf provide is a top shaped wedge whereby th attachments upon the right endof thesh t carryin the computing .drumi a.- longitu inal view in@Yertical.rnldsebtion, taken through the computingdri m; the central portion being broken away. ,Eigi 14 is an enlarged detail viewv ofthejflexible CQi nection between the. computing druiriahd 3 the upper friction roller, r silient parts exposed ,byjt he" nioval'jof the left head of the housing coiitailiingitli'e puti'ng drum. Fig..15i l j view of the end ofthe u perf i ction oller, showing the anti-slipping" neclianisn .th which it is equipped. Fig. 1363s anfenlargcd detail View of the frictional lockwitliwhich Figul? plan view of'the wheel'- oun'ted on"; therighi; end ofthe shaftcarrying the coinputing drum. Fig. 118 is areal eleiva t ioirof said-wheel and its dog ine lianisin. "'F 19 is an enlarged perspect view of v the arccomputing drlnn '5 connection vit-h is thrown out of opera t the upper friction rolle plan View of the adju'stz the computing druin is*idjusted is a vertical sectionalvie tithes along the line '21-' k Sheet 7, a plan viewl'oflthei lever'ss. Fig. 23 is" a fsiniila1- dog 135. Fig. 2 1 is topfplan tile 4 rewin'ding shaft and its" attachments f 25 is an enlarged perspective view let one the cross-bars en ployednon the, regw nd'ifng shaft. Fig. 26 isa siniilar jviewmf oue ofthe dogs employed upon .t e cros' l are Fig. 27 is a perspective 'vievfofone i' he wash ers employed upon. said logs. .28 is" an el'ilarged perspective vienflof one of the flexible arms Wherebythe l fQ-iYilulill Qattachinent is secured in;.pla c"e upon the of the cloth-measuring ,inaohine/lfig. 29 is a longitudinal inid-seetio 'ial iew ofth'e coupler employed in securing one'end ofijthe re-Winding shaft.- Fig-BO is a top, plan view of said coupler, showing the enclsof 1; rewinding shaft, seated in position. 31 is a side elevation of theifdri'vingendgioffthe re-winding' shaft. the ia ttacl -ni'cnts. upo i' its extremity being showi iii icl-sectionif is an enlarged perspective wtofafragment of the rewinding;sltaftatttlie point' where it is hihged upon itself. f:

As shown in the drawings we eni rljoy a frame comprising the end supports 26 26 connectedtogether by transverse rods 27 and containing "the housing 28 which forms the cloth receptacle .29; the rear wall 30 of the receptacle 29 is substantially vertical while'the frontlwall 31 is inclined-up- =wardly. an d rearwardly' (see Figs. 1, 2- and 3). At itstop theffframe'25 supports'the heads 32 and-33 connected to each other by 10 means of rods 34. Between theheads '32 and 36,. which areparallel and vertical, we pro- 'v dea'cyhndrical housing 35 providedatits front vwith horizontal windows 36 and 37, separated. from each otherv by means of the. vertical window 38, all of said windows be-' ing surrounded by the casing 39, provided with the verticalstrips 40 for the aceommo dation of the-vertical window 38. Within the cylindrical housing35 theshaft 41 is [m unted, its ends extending through the he ds 32 and- 33 and its outer extremitiesbeingprovided with hand-wheels 42 and-43.- The drum 44 ismounted upon the shaft '4'1 by means-of arms 45. About itsperiphcry, and preferably at the middle part thereof,. the drum 44 is provided with a lineal measurement scale 46. In-the construction ripheryand at each side of the lineal measurement scale46, the drum 44 is provided with total-prlce scales 47 and 48 reading from left to right and indicating the totalprice Fig.6.

of a-given'length of cloth at a given price per lineal yard. Within the windows 36and 37 we provide stationary price scales 49 (see "Figs. 5, 6-, 7 and 8) ranging, in the structure illustrated in the drawings, from 2e to $4.00, and indicating the price per yard. As the drawingsillustrate, a drum having a lineal measurement} scale 46 representing 16 yards, the total amounts in alinement with the zero line indicate the total value of 16 yards of cloth at the given price per yard indicated by the cost scale 49. Thus, reading upward from the fixed cost-scale49 to the corresponding numbers upon the total-price scale 47 (see Fig. 5), we find the total price of 16 yards of cloth at 295 per yard indicated as 32; the total price'of 16 yards of cloth at 37%, indicated as $6.00, and the total-price ards at per yard as $11.20 (see The next reading from the totalprice scale is had to the right of the lineal measure scale 46 (see Fig. 6), where wefind the price of 16 yards at 72 per-yard, indi- 'cated as $11.60, and reading" fi5i;rtl1'er..from the same scale (see Fi. -"7 'the'total price of 16 yards at $3.98 per yard is given-as $63.68. The revolution of the computing drum is accomplished by means of the withdrawal of the cloth from its bolt and contained in the rec ptacle 29, over the bracket 50 carried at the front of-the frame 25. In alinement,

withthe bracket 50 we provide two parallel 7O frict on rollers 51 and' 52 journaled in the -bear1ngs53 and.54;'the rollers 51 and 52 be-.

ing. in fixedposition, and the upper friction roller 55 beln' adapted to have frictional contact with tie upper faces of the rollers 7 5 51 and 52 (see Figs. 2 and 3). The upper frictional roller 55 is provided with the crank 56 having a handle 57, and the roller .55 is mountedupon the shaft '58. ,At its left extremity the shaft 58 is provided with the g0 bevel gear'59, Fig. 14, intermeshing wi h the bevel gear 60 mounted upon the shaft 61, The shaft 61 at its upper extremity receives a flexible shaft 62, and its connecting mechanism, which is illustrated in the drawings asbeing at the left extremity of the shaft 58," is contained in a housing 63 carried by the lever arm 64 which is pivotally mounted upon the frame 25 at the ointindicated by the numeral 65. The housing 63 is provided at its upper extremity with the opening 66 through which the flexible shaft 62 extends. The flexible shaft 62 enters the housing 35 through the opening 67 in its bottom (see Fig. 14) and extends upward to the point ,where it is fixed in the shaft 68 provided with the worm gear 69 and journaled in the brackets Y70 and 71. The worm .69 intermeshes with the worm-wheel 72, which is loosely mounted. upon the shaft 41. The

outer face of the worm wheel 72 is normally in contact with the disk 73, Fig. 13, which .is fixed upon the shaft 41. Upon the inner face of the worm-wheel 72 the disk 74, slidably mounted upon the shaft 41 by means of a key 159,and registering in size with the disk 7 8, is normally thrust outward by means of the coil spring 75, to effect a frictional engagement with the worm-wheel 7 2. The

disk 74 is provided with a disk 76 journaled 1 10 upon the tubular collar 77 whose inner end is secured by the vertical support 78 The coil spring 75 is mounted upon the collar 7 7 ,1 at its inner extremity, exerting pressure upon the fiangedcollar 79 with which the disk 76-is provided. The disk 76 is connected to the collar 79 by means of the annular web 80, thus forming the grooved depression. 81 in which the yoke 82 (see Fig. 22) is loosely mounted, the yoke 82 being provided l2( with a bell-crank level" 83, Fig. 13, whose ylow er arm extends outwardly through the opening 84 in the head 32. The head 32 is provided upon its inner face with the bracket :85 upon which'the bell-crank lever 83 is piv-. 12E

otally mounted. The lower arm of the bell-- cranklever 83 is provided with a horizontal slot 86 provided at its mouth with the verti cal roller 87.

The upper friction roller 55 is journaled was! at. its light extremity in the curved su" it 88, Fi :3, whose formation correspon 'dg to that o the bracket 64; and-the inner ends of the support 88 andbrac'ket 64 are piv-- 'otally mounted-at the points indicated by the numerals 65 and 9.0, which points of pivotal support are in alinement'. An arc-shaped tapering lever bar 91, Fig. 1 9, is pivotally Lthrownupwardly and out oi engagement- .-with the upper surfaces of the lower frie mounted upon the outer flee of the bracket 0 {14 as indicated by -theni1mera1 es,- Fig.1 2,- its'thickness tapering toward'its upper as minal 93; and the bar 91 passes through the horizontal slot 86in the lower arm ofthe bell-crank lever. 83 Fig. 13). 1

, By means of v scribed, when the upper friction roller 55 is tion rollers 611 11632, the lever 91; contacting with the outer faceof the head 32 and with. the-roller 87 ,thrusts the lower arm' of the-bell-crank lever 83 outwardly," driving theyoke 82 inwardly, releasing the wormwheel 72 so as to permit itto revolve freely upon the shaft 41, so interrupting the con nection between the upper friction roller 55 and the wornrgear 6'9 through the flexible shaft 62. The operative connection between the computing drum 44 andv the upper friction roller 55 being thus completely interru'p'ted, is restored by'the act of lowering the upper frictionroller55 into its active position, in contact with the faces oi? "the lower friction rollers 51 and 52. a

For the expeditious shifting of position oifthe friction roller 55 audits connections, and to the end of locking said friction roller in either of its two positions, operative or inoperative, we have provided a lever arm 94, Fig. '2, pivotally mounted upon the head 32' by the pin 95, and terminating at its free end in the handle 96. A connecting, bar

97 is pivotally" connected to the bracket 64 by the pin 98 and to the lever arm 94 by the ro'd 99. Upon the inner face of the lever arm 94-we provide a pronged fork 100 which is responding lever arm 107 by the rod 99, the

lever arnr107 being provided with the handle 108 and being connected to the support i 88 by the bar 109, whose lower'elld 15 se- "cured to the support 88 by means of the pin 110, its upper end being secured to the outer 'face' oft-he lever. arm 107 by the rod 99.

he construction thus do the' 'bracket 142, Fig. 18.

The pronged fork 111 is ';also mounted on the lever arm 107 by means of the'rod-99, and 1S provided Wit'l'r the outwardly projecting handle 112, normallyheld away from the lever arm 107 by means ofthe coil spring fork 111 engages with the pin 115 to lock upper friction roller 55 In operative pos tlon; while theupper hook 116 of the lever am 107 engages with the pin 1.17 to lock the upper friction roller 55 in its elevated or inoperative position.

In order to maintain the bolt of cloth which is being measured in. alinement with the friction" rollers 51-, 52 and 55, we have provided the guide-board 11-8 mounted upon the inner and up-turned end 119 of the ad 113. The l'owerhook 114 of the pronged justing bar 120 (see Figs. 1, 2 and 10), the I adjusting bar 120 being provided at its opposite extremity with the handle 121.

With-in the receptacle 29 we provide a fixed guide-board 122 provided with the slot 123 through which the longitudinal adjusting bar 120 passes. Upon the outer face of the fixed guide-board 122 we provide a vertirally-mounted tube .124, Fig. 16, closed at its upper end as indicated by the numeral 125, and containing a coiled spring 126 whose lower end 0 crates against the plunger 127' to thrust t e'same downwardly and into. frictional contact with the upp'erface of the longitudinal adjusting bar 120. The tube 124 is provided with a slot 128 through which a pin 129 extends in the plunger 127. The pm 129 may be raised to permit the ins ward or outward adjustment of the longitudinal adjusting bar 120.

To-prevent' the retrograde movement of the computing drum 44', we have provided the means illustrated in Figs. 13, 17 and 18. On the outer face of the head 33 is provided a screw plug 130, Figs. 13, 20 and 21, whose inner end is screwed into position in the face-plate 131 mounted upon the outer faceof the head 33. The plug 130 is screwthreaded horizontally to receive the screwstop 132 which is provided with an outwardly projecting flange 133' at its outer end. The plug 130 is screw-threaded to receive the set-screw 134 by which the screw'stop 132 may be locked in position (see Figs. 20

and 21). A spring dog 135, Figs. 12, 18 and 23, is mounted upon the plate 136 by means of the pin 137. The outer end ofthe plate 136 is secured to the hand wheel 43 by means of the pin 138. The dog is normally kept in alinementwith the axis 01? the hand wheel 43 by means of the flat spring 139. Said dog 135 is also provided with a lateral projecting lug (see Fig. 23), and is pivot'ally mounted at its .outer end by the pm 138 passing through the perforation .141.

'Iheplate-136is'bent over at its end to form A coiled spring 143 is mounted around the lug 140 and its ipvaeei opposite end is held within the bracket 142 by means of the screw 144;lfig. 12. The

projecting point 145 of'tliedog 135 is adapt- I of the windows 36, 37 and 88.

In order that the computing drum may j automatically return to its initial position indicated in Figs. 5, Sand 7, with the Zero (0) line midway the helght of the windows 36,37 and 38, we have provided a weight 146, Fig. 13 suspended by a chain 147, the end of which chain 147 is attached to the collar 148 by means of the pin 149. The collar 148 is slidably iand revolubly mounted upon the shaft 41 and is fixed in position by means of. the set-screw 150. The weight 146 is so suspended, by employing achain 147 V of such length, that the Weight 146 will be:

drawn upward into, contactwith the collar 148 by a single revolution of the computing drum 144. Where thedrum 44 is' revolved more than once, the weight 146 will bedrawn upwardly and over the collar 148 and dropped into its original position. By means of this device, the shaft41 carrying with it the drum 44 will return to its initial position whenever the operative connection between said computing drum 44 and the upper friction roller 55 is'interrupted by the elevation of the lever arms 94 and 107, as hereinbefore described.

, It is obvious that the mechanism describedv in the preceding paragraph must be so constructed as to be operative within the limits of approxinuitely one-half the diameter of the drum, owing to the limitations of space and the other operative parts of the device. To this end we prefer to use a chain 147 whose lengthin proportion to the circumference of the collar 148 is such that with each complete revolution of the drum 44, the weight- 146 will be carried over the collar and will immediately drop to its former position with its load upon the depending end of the chain 147. Byreason of this proportienin-g the length of the chain to the circumference of the collar 148, the entire mechanism is contained within the limits of space afforded by the interior of the drum 44,'and shouldthe drum, in the operative use of the 'de ice, accomplish more than one revolution, andno matter how many revolutions more than, one are thus accomplished, the weight 1146 is always so positioned as to restore the drum 44 to its initial or ZOFO (O) position,v

the shaft 41 with the conical. collars 151 and The face-plate 131 is provided with the annular recess 153 containing the ballbearings 154. Similarly, the head 32 is provided with the [face-plate 155 having the annular chamber 156 provided with ballbearin s 157 a The mode of operation of the dcviceof our invention will be" readily understoodfrom the foregoing description. The belt of cloth to be measured is deposited. in the receptacle 29. The guide-board 118 is adjusted by means of the handle 121 on the longitudinal adjusting bar 120. The end of the cloth is drawnoutwardly between the lower friction rollers 51 and 52 and the upper friction roller 55. The crank 56 is revolved by the handle 57 to draw the cloth outwardly, movement being simultaneously imparted to the computing drum 44 by means of the flexible shaft 62. The desired length of cloth having been measured, as indicated by observation through the vertical window 38, the total selling price of such length of cloth so measured is made visible by reference to the price scale 49 and upon which the price per yard will appear, while the total price of the piece of cloth measured will be found upon the scale 47, immcdi-. ately above the figures indicating the price per yard. The cloth being cut by means of any suitable utting instrument, said cutting iustrumcnt being guided by the groove 158 on the shelf or bracket '50, the upper friction roller 55 is thrown upward, releasing the end of the cloth and disconnecting the mechanism actuating the drum 4-4, which drum is then restored by reason of the weight 146 to its Zero (0) or initial position. The belt of cloth is then removed from the receptacle 49. f

The upper friction roller as illustrated in Fig. 15 is provided with means to insure its frictional engagement with the inner face of the bracket 64. At one of its extremities the upper friction roller 55 is provided with slotted recesses 159 and 160 in which pins 16.1 and 162 are slidably mounted. The pins 161 and 162 project from the inner face of the cylindrical drum 163 which is mounted about the shaft 58. The inner face of the drum 163 is cut away as indicated by the numeral- 164 to permit the innerend of the coiled spring 165 to exert its pressure upon the end of the friction roller 55, the outer end of the coiled spring 165 being held by the inner .face of the outer hcad 166 of the drum The curved su'pportSS is provided with the opening 167 through which the shaft 58 passes and upon the inner face of the curved support 88 is provided a flanged disk 16'?" secured to the inner face of the support SSby means of pins, 168 and to securet-he disk against rotation. The

shaft 58 is provided with the integral circu- .lar collar 170 whoseouter edges are beveled with the in'ner face of the disk 167, as

as indicated by the numeral 171 to register shown in Fig. '15. The lateral pressure exthe upper friction slippingcfsaid roller 55.

-When itis desired to use the machine of our invention for the purpose of invoicingor taking stock, and computing the total number of lineal yards'remai'n'mg upon a 1 bolt ofQcloth which has been partly used in the course'of trade; such measurements are accomplished by unwinding the remainder of-such bolt-and rewinding it to form a new- -bolt. To this end we employ a. frame-work -'cons1st1ng of two forwardly projecting bars 200-201, Figs. 24 and. 1, which are recessed at their inner ends as indicated by the numeral 202, to engage with and be seated upon the lower of the transverse rods 27,,

which connect the end supports 26-26. The bars 200 and "201 are connected by means of a fixed transverse rod 204 near their inner extremities, and a similar-rod 205 about midway their length; the rod .205 being-provided with hinge seats 206-206.

4 Thcbars 207-207 are mounted in the hinge seats206 by means of pins 208-208. Near their inner extremities thebars 207-207 are 5 connectedto'othe'rbars 209-209 by means of pins 210-210 the" inner ends of the bars 209 being provided with depressions 211, Fig. 28,-to engage with the upper of the-transverse rods 27. The bars 207 are provided with depressions 212 which are adapted to engage with pins 213 when the bars 207 and 209 are brought into alinement with each other. 7

By means of the structure, thus described; the rewinding' attachment is. removably' mounted upon the transverse rods 27-27. At their front ends the bars'200 and 201 are provided with journal-boxes 214 and 215. in which the rewinding shaft 216 is operated. The bar 217' is hinged to the rewinding shaft 216 at the. point indicated by the numeral 218, Figs. 24-and 36. At its opposite end theshaft 216 is held by the coupler (see Figs. 29 -and'30) consisting of the flat bar 219 whose outer extremity is. held in the spool 221; the spool 221 being providedwith flanges 222 to engage with the sides of the journal-boxes 214.

The knurled cylinder 223 is slidably mounted upon the flat bar 219; the bar 219 being provided with a slot- 224, Fig. '30,- upon one of its edges, and the cylinder 223 being provided with the inwardly projecting pin 225 extending into the slot 224 to limit the movement of the cylinder 223. At its inner end the flat bar 219 IS slotted as in- ;dicated by the numeral 226 to receive the ton ue 2Tformcd on the engag ng end of *the re-windingshaft 216,;and'the knurled cylinder 223315 adapted toslide over the locked in position when'inengagement with the tongue 227 by means of the spring-latch .228 mounted diametrically in the cylinder fof the coiled spring. 229, the point of the jlatch 22S engaging with a depression 230 formed in the face. of" the flatbar 219..

Upon the shaft 216 we employ cross-bars i231 and 232; the cross-bar 231 being rigidly {while the cross-bar 232 is slidably mounted upon theshaft'216, being secured in place by means of the thumb-screw 233. The 3form. of these cross-bars is illustrated in central portion-234' uponwhich is formed a transversely slotted car 235- by-means of :shaft 216 or bar 217. They are provided at either side of the solid portion 234 with the slotted-apertures 236-236 in which the dogs 237 are mounted. The dogs 237 have inwardly projecting ears 238 provided with flanges 239,! to engage one corner of the 'board 265 upon-which the bolt is to be wound they. also have an outwardly proposition by means of thumb-screws 243; the washers 242 being provided with index points 244' registering with the scales upon the cross-bars 231 and 232 (see Fig. 24), to insure the equal balancing of the board or other bolt base upon'the rewin'ding shaft 216. v a

The shaft 216 is d iYt-n by the sprocket 245, Figs. 11, 24 and 31, which is loosely mounted upon the axle 246. The inner end of the axle 246 terminates in collars 247- 247 which are adapted to hold the axle 246 in place within the journal-box 215. The axle 246 is adapted, as indicated by the numeral 248, to receive the outer end of the bar 217.

245 and the shaft 246 is provided as follows: A friction disk 249, Fig. 31, is held from turning upon the shaft 246 by means of the pin 250 carried by the shaft, and the fricface contacting with the coiled spring 254 to produce the desired amount of friction i223 and normally't-hrustinwardly by means mounted upon the: bar 217"( see Fig. 24),-

ject-ingscrew 240 passing through the open-- ing 241 in the washer 242, and locked in tion disk 251 is sim'larly held upon the- ?tongue 227 to hold the same in position (see Figs.- 29 and 30.), the cylinder 223 "Fig. 25. "Theyare 'provid'ed with a solid which the cross-bar is mounted upon the between the friction wheel 2-51 and the face of the'sprocket wheel-215. 4

a sprocket wheel 256, Figs. 3 and 1, and

heath the friction rollers. "tension on thesprocket wheel 2 15 is regu- "lated by the cap screw 255 upon the spring 254. The head32 is provided with an out k th e.;fl,e ible shaft 62 is rotated by means of .movement is imparted to the sprocket wheel 245 by means of the chain 257. YVhen the crank handle is operated, by this operation I the shaft 216 together with the board carriedby the same over which the cloth is wound is "placed in operation, as the cloth winding upon the boardbecomes increased length owing, to every successive revolution, the sprocket wheel 245 is permitted to operate freely upon the shaft by means of the frletion mechanism holding the same and only permitting the board to rotate when the clothis "passed freely from be The frictional wardly projecting horizontal pin 258 which parallel to the shaft 41. The shaft 41 is provided with a gear wheel '2'59 which is adapted to intermesh with'the gear' wneel 260' which is loosely mounted upon the pin 258. The gear 260 is provided with a con centric outwardly projecting scaled-collar 261, as illustrated in Fig. 13, and is scaled. to indicate '50 yards.

The/teeth of the gear wheel 259 and 260 are of such number and dimensions that the scale' 261 will registerany desired number of lineal yards in excess of the number of lineal yards indicated by'one completerevol ution of; the drum 44 which indicates sixteen yards. The, pin 258 is screw-threaded as indicated by the numeral 262 to;,receive the knurled collar 263 which is for the purpose of disengaging the wheel '260 from the wheel 259-when the Same is not to be used, by this operation 'the spring on the pin 258 is compressed and its tendency isto keep the wheel 260 in close contact with. the collar at all times.

When the re-winding'deviceis not cinployed, the collar. 263 will be moved inwardly (see Fig. 13), so that the teeth of the gear wheel 260 will be thrown out of engagement with the teeth of thegear wheel 259. Vhen the re-windingdevice is to be employed, the collar- 263 will be screwed outwardly tof throw the teeth of said gear wheels 259,,ar1d into The pin 25'Sjis' provided with 2' fixed index pointer 264- ii'l1i:clr'points to tile number of lineal yards which have been lt wound,'up'on the circular scale 26.1. I v cloth belng re-wound' hen the bolt of I "hasheen entirelywound on the new bolt'by is withdraw a from 1''111811118 of the re-wind-ing shaft 216, thecylindf'er 223-is drawnIoutwardly to release the male 227-. ate-a0, the shaft 216 is flexed upon its hingedpoiiit 218, the cross-bar the shaft 216, and the engagement.

wound bolt of cloth is thus-released and may 7 be drawn off the shaft-216'. The shaft 58 is provided at one endwith .l'n order to maintain thesame character of fold in the rewinding of a belt of double-width cloth, in which the cloth is folded over upon itself longitudinally, we have found it necessary to employ the roller 300, Figs. 1, 2 and 3, suspendedfrom the hangers 301 so that the cloth may be run from the bolt, for the purpose of-rewinding over the said roller 300 before it is passed through the friction-rollers (see Figs. 1, 2 and 3).

The operation of our invention-is as fol- ,lows A belt of clothis placed within the body of the machine, its free end "being passed above the rollers 51 and 52 and below the frictionroller 55, the crank handle 57 i s operated and, by the frictional connection of the rollers withF-"the cloth will advance; the; cloth between the rollers and during therevolution .of the friction roller .itsconnection 61 with the bevel gear 59 of it-he,rolliioperating theworm 69, which in turn meshes with and operates the worm wheel 7 3, the 'worm wheel 73 being connected tof' 'the shaft 41, the drum which is mounted thereon is simultaneously operated, the scale on the periphery of the'drum being observed through the windows formed on the drum casing or housing. After the required number of yards of cloth have been passed through the machine and accurately.

measured and the amount indicated on the drum, the operator severs the same from the bolt by passing the shears into the notch or groove 158 formed in the table 50. The drum is held upon the shaft 11 by frictional c ontact andthe same is permitted to revolve with the shaft when the frictional roller is down and in contact with the cloth. \Vhen raising the roller and the frame by which it is carried in the position as shown by dottedlines in Fig. 3 the bar 91 carried by the frame being tapered in form (see Fig. 19) and located and operating between the side of the housing and the roller 87 presses the roller outwardly simultaneously operating the bell crank lever 83 which disengages the frictional contact which will then permit the drum to automatically revolve to its original position or starting point by the action of the weight 146. In measuring an entire bolt of cloth to ascertain the number of yards therein the op rator, by manipulating the knurled collar 263 places the gear wheel 260 in mesh with the gear wheel 259 and it is so arranged before said wheels are brought into mesh by placing the same in a position so that the pointer 264 is iir alinemen't with the 0. or starting point on the scaled collar. The construction ofthi s device is such' that when the lelot hgis being passed through the-ma-.

' Lot-gear anine and the drum hasmade one complete evolution, indicating sixteen yards,- 16 on the scaled collar will be inalinement with 1 he fQarrowfIThe drum while continuing on secondqrevolution will show on the scaled ar .32 yards and so on.

The rew.inding device is used together {the scaled collar just described and while the cloth is? being advanced. through the machine and measured, the rewinding device bolt. (Having thus fully described our. invenis placing the cloth in the form of ia ition; what we claim as new and desire to v '15 have securedtous by the grantv of Letters Patent, is:

friction rollers mountedparallel with said receptacle; an upper frictionroller adapted toengage with the upper faces of said lower friction rollers; a crank whereby said upper friction roller is actuated; a re-winding shaft actuated simultaneously with the fric tion roller; a'bracket supporting said rewinding shaft; ascaled collar, and actuating means interposed between the friction roller and said scaled collar, substantially as described;

40 on the frame; means adapted to convey m 2.111 a device of the class described, a frame; means carried-by the frame for holding a bolt of cloth in 1evoluble'pos1tion;

two lower horizontal and parallel friction rollers mounted parallel: with the bolt; an upper friction roller pivotally carried by the frame and having operative frictional contact with the upper faces of the lower rollers; a scaled collar revolubly mounted tative movement from the upper friction roller to said scaled collar; a "re-w nding shaft carried by the frame parallel with the rollers; and a friction means whereby the re-windrng shaft is revolved simultaneously with the upper friction roller, substantially as described.

3.In a cloth-measuring and Ire-winding machine, the combination of a receptacle adapted to receive and hold a bolt of cloth to be measured and unwound; two lower friction rollers mounted parallel with said receptacle; an upper friction roller adapted toengage with the upper faces of sald lower friction rollers; a crank whereby said upper friction roller is actuated; a re-winding shaft actuated by a chain connection with said upper friction roller; a scaled collar; actuating means interposed between the friction rollers and said scaled collar; the re winding shaft being provided with adjustable means for holding a board upon which the cloth is to be 1ewound, substantially as described.

4, In a device ofthe class described, a frame; means carried by the frame for holdl'ng a belt of cloth in revoluble position; two lower horizontal and parallel friction rollers mounted parallel with the bolt; an

upper friction roller'pivotally carried by the frame andhaving operative frictional contact with the upper faces of the lower roll-. ers; a scaled'collar revolubly mounted on the frame; means adapted toconvey rotative movement from the upper friction roller to saidscaled'ccllar; a re-winding shaft detachably carried by the frame and parallel with the rollers; means whereby the rewinding shaft is revolved simultaneously with the friction rollers; the re-winding shaft being provided with adjustable and friction means for holding and operating a board upon which 'the cloth is to be rewound,-substantially as described.

5 In a cloth-measuring and 're-winding machine, the combination of a frame; a cloth receptacle carried by said frame; a price-computing drum rcvolubly mounted in said frame, said drum having means whereby it is restored to its initial zero upon the completion of each mdasuring operation;

means whereby said pricec0mputing drum. is revolved by the withdrawal of cloth from said receptacle; a secondary frame detachably mounted upon the first-named frame; a re-winding shaft carried by said secondary frame; means whereby said re-winding shaft is revolved by the withdrawal of cloth from said receptacle; a measurement wheel provided with a scale and carried by the first-named frame; and means for detachably connecting said measurement wheel with said price-computing drum, whereby said wheel is revolved by the revolution of said drum substantially as described.

(3. In a cloth-measuring and re-winding machine, the combination of receptacle adapted to receive and hold a bolt of cloth to be measured and unwound; a horizontal roller suspended above said receptacle over which the cloth operates; two lower friction rollers mounted parallel with said receptacle; an upper friction roller adapted to engage with the upper-faces of said lower friction rollers; a crank whereby said upper friction roller is actuated; a re-winding shaft deta'chably connected to the frame and actuated simultaneously with the friction rollers; a scaled collar, and actuating means interposed between the upper friction roller and said scaled collar, substantially as described.

7. In a cloth measuring and rewinding machine the combination of a receptacle adapted to receive and hold a bolt of cloth, a plurality of friction rollers mounted on the receptacle parallel with the bolt of cloth, an adjustable rewinding device for supporting the body on which the cloth is wound 

